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- Team - Liddle Lab
Rodger is a gastroenterologist with research expertise in enteroendocrine cells and the pancreas His laboratory has focused on diseases of the pancreatitis, an area in which he has made fundamental observations on the pathogenic mechanisms underlying early events in pancreatic acinar cell injury
- Rodger Liddle - ASAP CRN
Dr Liddle’s research focuses on enteroendocrine cell biology and pancreatic pathobiology His laboratory discovered neuropods that connect enteroendocrine cells to nerves and provide a connection between food and microbes in the gut and the nervous system
- Rodger Alan Liddle | Professor of Medicine | Duke Cancer Institute
Our laboratory has two major research interests: Enteroendocrine Cell Biology Enteroendocrine cells (EECs) are sensory cells of the gut that send signals throughout the body They have the ability to sense food and nutrients in the lumen of the intestine and secrete hormones into the blood
- Rodger A. Liddle, MD | Parkinsons Disease
Dr Liddle’s research focuses on enteroendocrine cell biology and pancreatic pathobiology His laboratory discovered neuropods that connect enteroendocrine cells to nerves and provide a connection between food and microbes in the gut and the nervous system
- Rodger LIDDLE | Duke University, North Carolina | DU | Research profile
Here, we examine the impact of mechanosensitive ion channels on the durotaxis of pancreatic stellate cells (PSCs) PSCs are primarily responsible for producing the stiff tumor tissue in pancreatic
- Roger F Liddle - Statistical Consultant | LinkedIn
Areas of expertise include biostatistics, clinical research, experimental design, statistical consulting, DSMBs, IDMCs, and FDA Advisory Committee preparation I have enjoyed my recent role as
- Rodger A. Liddle | ScienceDirect
In the present study, the regulation of L-type Ca 2+ channels by cAMP and Ca 2+ calmodulin dependent protein kinase II (CaM-KII) in STC-1 cells was investigated
- Rodger Alan Liddle - Duke Institute for Brain Sciences
We recently demonstrated that CCK and PYY cells not only secrete hormones but are directly connected to nerves through unique cellular processes called ‘neuropods’ Our laboratory is devoted to understanding EECs signaling and its role in disease
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